Browsing by Author "Arrizabalaga, Eneko"
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Item Environmental assessment of domestic solar hot water systems: a case study in residential and hotel buildings: A case study in residential and hotel buildings(2015-02-01) Zambrana-Vasquez, David; Aranda-Usón, Alfonso; Zabalza-Bribián, Ignacio; Jañez, Alberto; Llera-Sastresa, Eva; Hernández, Patxi; Arrizabalaga, Eneko; PLANIFICACIÓN ENERGÉTICADomestic solar hot water systems (SHWS), which are used to reduce domestic energy use, represent one of the most widely known technologies of solar thermal applications. Taking into account the sizing of these systems during its design phase, it is also important to consider the effects on the environment of their use from a life cycle perspective. An evaluation method based on the Life Cycle Assessment (LCA) methodology is used in this paper to analyse the environmental implications of SHWS considering the production, use, maintenance and end-of-life stages. As a case study, 32 different types of SWHS to meet the hot water demand (HWD) of 2 dwellings and 2 hotels, located in the region of Aragón in Spain, are studied. The aim of the case study is to compare the environmental performance of SHWS and to select the best environmentally friendly solution while considering their energy pay-back time (EPBT). From an environmental point of view, comparing the results obtained in all cases studies, e.g., in terms of kg CO2 eq, the use of biomass as fuel for the auxiliary system in each SHWS considered provides the greatest environmental benefit in comparison with the other fuels, usually followed by the use of natural gas. However, in terms of the EPBT, because biomass is the fuel with lowest environmental impact and associated embodied energy, the avoided embodied energy due to the solar contribution in SHWS is the lowest in the biomass case, thereby resulting in a higher value of the EPBT.Item Methodology for integrated modelling and impact assessment of city energy system scenarios(2020-11) Muñoz, Iñigo; Hernández, Patxi; Pérez-Iribarren, Estibaliz; Pedrero, Juan; Arrizabalaga, Eneko; Hermoso, Nekane; PLANIFICACIÓN ENERGÉTICACities are ought to play a key role in the energy transition to a low carbon society as they concentrate more than half of the world's population and are responsible for about 67% primary energy consumption and around 70% of the energy-related CO2 emissions. To achieve the agreed climate targets, efficient urban planning is a must. Tools and methods have risen to model different aspects of the energy performance of urban areas. Nevertheless, addressing the complexity of a city energy system is a great challenge and new integrated tools and methods are still needed. This paper presents a methodology for integrated city energy modelling and assessment, from the characterization of the city's current energy performance to the development and assessment of future scenarios. Energy characterization is based on the combination of bottom-up approaches with top-down data to establish the city's energy baseline. This baseline integrates bottom-up results from a GIS based model which is used to characterize the city's building stock energy performance, while available information on the vehicle stock is used to model the mobility sector. Scenarios are developed from this baseline and assessed through a multi-criteria impact assessment model. A simplified case study is carried out for the city of Valencia (Spain) to demonstrate the suggested methodology, and results are shown for three different scenarios: one focused on the building sector, one on transport, and one combining measures in both sectors. The transport-focused scenario demonstrates to be the most favourable in terms of energy savings and emissions reductions. The application of the proposed method is intended to support the development of strategies and plans for energy transition at city level. The main challenges for its application in cities are data availability at urban level, the uncertainty related to modelling the transport sector, and the unavailability of adapted I/O tables at city scale to assess socioeconomic impacts.Item A Multi-objective Harmony Search Algorithm for Optimal Energy and Environmental Refurbishment at District Level Scale(Springer Singapore, 2017) Manjarres, Diana; Mabe, Lara; Oregi, Xabat; Landa-Torres, Itziar; Arrizabalaga, Eneko; Del Ser, Javier; Tecnalia Research & Innovation; IA; PLANIFICACIÓN ENERGÉTICANowadays municipalities are facing an increasing commitment regarding the energy and environmental performance of cities and districts. The multiple factors that characterize a district scenario, such as: refurbishment strategies’ selection, combination of passive, active and control measures, the surface to be refurbished and the generation systems to be substituted will highly influence the final impacts of the refurbishment solution. In order to answer this increasing demand and consider all above-mentioned district factors, municipalities need optimisation methods supporting the decision making process at district level scale when defining cost-effective refurbishment scenarios. Furthermore, the optimisation process should enable the evaluation of feasible solutions at district scale taking into account that each district and building has specific boundaries and barriers. Considering these needs, this paper presents a multi-objective approach allowing a simultaneous environmental and economic assessment of refurbishment scenarios at district scale. With the aim at demonstrating the effectiveness of the proposed approach, a real scenario of Gros district in the city of Donostia-San Sebastian (North of Spain) is presented. After analysing the baseline scenario in terms of energy performance, environmental and economic impacts, the multi-objective Harmony Search algorithm has been employed to assess the goal of reducing the environmental impacts in terms of Global Warming Potential (GWP) and minimizing the investment cost obtaining the best ranking of economic and environmental refurbishment scenarios for the Gros district.Item The opportunity for smart city projects at municipal scale: Implementing a positive energy district in Zorrozaurre(2021) Martín, Cristina; Castillo-Calzadilla, Tony; Zabala, Kristina; Arrizabalaga, Eneko; Hernández, Patxi; Mabe, Lara; López, José Ramón; Casado, Jesús Ma; Santos, Ma Nélida; Guardo, Jordán; Molinete, Begoña; PLANIFICACIÓN ENERGÉTICAThe urgency of climate change is demanding new urban energy transition processes that will be accelerated by the implementation of innovative urban solutions. This paper proposes a three-step methodology to encompass the energy transition in cities. Firstly, the design of urban spaces in accordance to Positive Energy District (PED) concept is defining a very ambitious objective that will lead the development and implementation of innovative urban approaches. Secondly, the implementation of Urban City Labs is proposed for testing and demonstrating urban innovations at real scale as reasonable approach for consolidated urban landscapes. Thirdly, energy transition is demanding new governance mechanisms where top-down and bottom-up perspectives are continually combined and harmonized. ATELIER H2020 is accelerating the demonstration of this methodology at the recently defined PED in Zorrozaurre (Bilbao, Basque Country).Item Sensitivity assessment of a district energy assessment characterisation model based on cadastral data(2018-08) Oregi, Xabat; Hermoso, Nekane; Arrizabalaga, Eneko; Mabe, Lara; Munoz, Inigo; Tecnalia Research & Innovation; PLANIFICACIÓN ENERGÉTICASustainable energy planning of cities is a complex problem which should address the comparative analysis of alternative future energy scenarios form a social, economic and environmental point of view. In this regard, the development of methods and tools to allow building energy demand characterization of large areas is becoming one of the main challenges in this field. New studies focused on the energy diagnosis of districts and cities with different location and climatic conditions are necessary to calibrate current methods and assumptions, as well as for the replication of the validated method in other cities around the globe. This paper provides a comparative analysis of the results obtained during the sensitivity assessment of a specific tool for the building energy demand characterization at city scale developed by Tecnalia in the European research project PlanHeat for four different European cities. During this calibration process, the influence of the main parameters that can be adjusted within the tool is evaluated and discussed. Results show that the relevance of adjusting properly each parameter varies depending on the climate zone of the city evaluated and other characteristics of the conjunction of buildings included in each district.Item Sustainable Strategic Urban Planning: Methodology for Urban Renovation At District Level: Methodology for Urban Renovation at district level(International Solar Energy Society, 2017) Vallejo, Estefanía; Criado, Cristina; Arrizabalaga, Eneko; Vasallo, Ali; Renne, David; Griffiths, Steven; Romero, Manuel; Guthrie, Ken; Mugnier, Daniel; PLANIFICACIÓN ENERGÉTICASustainable urban renovation is characterized by multiple factors (e.g. technical, socio-economic, environmental and ethical perspectives), different spatial scales and a number of administrative structures that should address the evaluation of alternative scenarios or solutions. This defines a complex decision problem that includes different stakeholders where several aspects need to be considered simultaneously. In spite of the knowledge and experiences during the recent years, there is a need of methods that lead the decision-making processes. In response, a methodology based on the global idea and implications of working towards a more sustainable and energy efficient cities as a holistic procedure for urban renovation at district level is proposed in the European Smart City project CITyFiED. The methodology has the energy efficiency as main pillar and the local authorities as client. It is composed of seven phases that ensures an effective dialogue among all the stakeholders, aiming to understand the objectives and needs of the city to define a set of Strategies for Sustainable Urban Renovation and their integration within the Strategic Urban Planning of the cities.